JP2009253640A - Wide area monitoring system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a wide area monitoring system which monitors the monitoring data of a plurality of dwelling units over a wide area and transmits the results to the user terminal of a corresponding resident. <P>SOLUTION: A data collecting apparatus 1 having a web server function is installed in every dwelling unit and includes: a detecting means for detecting monitoring data regarding a predetermined monitoring object; and a transmitting means for transmitting the monitoring data detected by the detecting means to a data summing server 2 together with address information allocated to the relevant data collecting apparatus 1. The data summing server 2 includes: a communication means for performing communication through a communication network NT; a memory means for memorizing the monitoring data of each dwelling unit that the communication means receives from each data collecting apparatus 1 in association with the address information; and a wide area-monitoring means which monitors the monitoring object over a wide area based on the monitoring data of each dwelling unit read out from the memory means, and at the same time, allows the communication means to transmit the wide area information showing the monitoring result to the user terminal 3 used by the resident of each dwelling unit. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a wide area monitoring system.

  Conventionally, the interphone function for intercom calls between the door phone slave unit and the master unit, the control and monitoring function for various home equipment, and security functions such as crime prevention and disaster prevention have been integrated into the master unit that forms the core of the system. A residential control / monitoring integrated system has been provided (see, for example, Patent Document 1).

In the residential control and monitoring integrated system disclosed in the above publication, communication means for exchanging information with the Internet is provided in the master unit, and detection inputs from security-related sensors such as security sensors are sent to the master unit. When input, the base unit issues an alarm and transmits an e-mail indicating the alarm notification to a mail address registered in advance by a communication means.
JP 2004-135197 A

  In the conventional residential monitoring system described above, when an alarm is issued at a certain user's dwelling unit, an e-mail is sent to the user's e-mail address residing in that dwelling unit. Conventionally, there has not been provided a system that monitors a detection input by a sensor of each dwelling unit over a wide area and transmits it to a terminal owned by each user.

  The present invention has been made in view of the above problems, and its object is to monitor monitoring data of a plurality of dwelling units over a wide area and transmit the results to the corresponding resident's user terminal. An object of the present invention is to provide a wide-area monitoring system that can be used.

  In order to achieve the above object, the invention of claim 1 has a plurality of data collection devices each having a Web server function and installed in a plurality of dwelling units, and data collected by the plurality of data collection devices. The data collecting server to be connected to a user terminal used by a resident of each dwelling unit is connected via a communication network, and each data collection device detects detection data related to a predetermined monitoring target, and the detection means detects The monitoring data is transmitted to the data totaling server together with the address information assigned to the data collection device, and the data totaling server performs communication via the network. Storage means for storing monitoring data of each dwelling unit received from the data collection device in association with address information, and storage means Wide area monitoring means for monitoring a wide area based on monitoring data of each dwelling unit read out and transmitting wide area information indicating a monitoring result from a communication means to each user terminal according to a predetermined trigger input. It is characterized by having.

  The invention of claim 2 is the invention of claim 1, wherein the detection means comprises a human sensor that detects the presence or absence of a person to be monitored in the detection area, with the intrusion route to the corresponding dwelling unit as the detection area. When a person is detected by a human sensor of any dwelling unit, the wide area monitoring means of the data aggregation server outputs wide area information indicating that the human sensor of the dwelling unit has detected a person, and communicates the wide area information. The means transmits to each user terminal.

  The invention of claim 3 is the invention of claim 1, wherein the detection means comprises a fire detection sensor for detecting a fire to be monitored in the corresponding dwelling unit, and the wide area monitoring means of the data totaling server is a fire of any dwelling unit. When a fire is detected by the detection sensor, the fire detection sensor of the dwelling unit outputs wide area information indicating that the fire has been detected, and the communication means transmits the wide area information to each user terminal.

  According to a fourth aspect of the present invention, in the first aspect of the present invention, the detection means comprises a rainfall sensor that is installed in the site of the corresponding dwelling unit and detects a rainfall situation to be monitored. When a rain state is detected by a rain sensor of any of the dwelling units, wide area information indicating that the rain sensor of the dwelling unit has detected the rain state is output, and the wide area information is transmitted to each user terminal. It is characterized by that.

  The invention of claim 5 is the invention of claim 1, wherein the storage medium possessed by the resident of each dwelling unit stores in advance information including at least personal identification information, and the information can be read from outside by wireless communication. Each of the detection means includes wireless communication means that reads personal identification information from the storage medium by performing wireless communication with a storage medium that is disposed outside the house and is a monitoring target. A storage means for storing the personal identification information assigned to the resident of the corresponding dwelling unit, and a verification means for verifying the personal identification information read by the wireless communication means with the personal identification information registered in the storage means. If the personal identification information read by the wireless communication means matches the personal identification information registered in the storage means as a result of the verification by the means, monitoring data for informing the matched personal identification information When the monitoring data for transmitting the personal identification information is input from any of the data collection devices, the residence corresponding to the input personal identification information is transmitted to the data totaling server from the transmission unit. A notification signal for notifying the return of a person is transmitted from a communication means to a user terminal registered in advance.

  The invention of claim 6 is the invention of claim 1, wherein each detection means comprises an environment detection sensor for detecting environmental information of a plant cultivation site to be monitored provided in the corresponding dwelling unit, and is detected by the environment detection sensor. Environment information received from the environment detection sensor of each dwelling unit is stored in the storage unit of the data aggregation server, and the wide area monitoring unit reads each of the environment information read from the storage unit. The result of comparing the environmental information of the plant cultivation site of the dwelling unit with predetermined reference data is transmitted from the communication means to the corresponding user terminal.

  According to the first aspect of the present invention, in the data totaling server, the communication means stores the monitoring data of each dwelling unit received from each data collection device in association with the address information in the storage means, and the wide area monitoring means from the storage means The monitoring target is monitored over a wide area based on the read monitoring data of each dwelling unit, and the wide area information indicating the monitoring result is transmitted from the communication means to each user terminal. Since the wide area information indicating the monitoring result is transmitted to the user terminal in response to a predetermined trigger input, the wide area information can be shared by the residents of the plurality of dwelling units.

  According to the invention of claim 2, when the person is detected by the human sensor of any of the data collection devices, the wide area monitoring means of the data totaling server indicates that the human sensor of the dwelling unit has detected a person. Since the wide area information is output and the communication means transmits the wide area information to each user terminal, there is an effect that the presence or absence of an intruder into a plurality of dwelling units can be monitored over a wide area by the data aggregation server. In addition, since the data collection server sends wide-area information indicating the monitoring results to each user terminal, residents in each unit can grasp the presence of intruders in their homes and neighboring units over a wide area. When an intruder enters the dwelling unit, it becomes possible to take measures such as vigilance and notification.

  According to the invention of claim 3, the wide area monitoring means of the data totaling server indicates that when a fire is detected by the fire detection sensor of any of the data collection devices, the fire detection sensor of the dwelling unit detects the fire. Since the wide area information is output and the communication means transmits the wide area information to each user terminal, there is an effect that it is possible to widely monitor the presence or absence of fire in a plurality of dwelling units by the data aggregation server. In addition, since the data aggregation server transmits wide-area information indicating the monitoring results to each user terminal, the resident of each dwelling unit can easily grasp the presence or absence of a fire at their home or a neighboring dwelling unit. When a fire breaks out, it becomes possible to take measures such as evacuation and rescue.

  According to the invention of claim 4, the wide area monitoring means of the data totaling server indicates that when the rain sensor of any of the data collection devices detects rain, the wide area information indicating that the rain sensor of the dwelling unit has detected rain. Since the communication means is transmitting the wide area information to each user terminal, it is possible to monitor the rainfall situation in a plurality of dwellings over a wide area by the data totaling server. In addition, since the data aggregation server sends wide-area information indicating the monitoring results to each user terminal, residents in each dwelling unit can grasp the rainfall situation around their homes, take in laundry and take measures against rain when going out, etc. There is an effect that it becomes possible to take correspondence.

  According to the invention of claim 5, the collating means compares the personal identification information read from the storage medium possessed by the resident with the wireless communication means of any of the data collection devices and the personal identification information registered in the storage means. As a result of the collation, if the two match, the monitoring data for notifying the matched personal identification information is transmitted from the transmission means of the data collection device to the data aggregation server, so the wide area monitoring means of the data aggregation server The home return situation can be monitored over a wide area. The wide area monitoring means transmits a notification signal for notifying the resident's return home corresponding to the input personal identification information from the communication means to the user terminal registered in advance, so that based on the display of the user terminal It is possible to confirm the return status of another resident remotely and take some measures.

  According to the invention of claim 6, environmental information detected by the environmental detection sensor of the data collection device is stored in the storage means of the data totaling server, and in the wide area monitoring means, the plant cultivation of each dwelling unit read from the storage means Since the result of comparing the environmental information of the site with the predetermined reference data is transmitted from the communication means to the corresponding user terminal, the environmental information of the plant cultivation site of each dwelling unit can be monitored over a wide area. Further, since the wide area monitoring means transmits a notification signal for notifying the return of the resident corresponding to the inputted personal identification information from the communication means to the user terminal registered in advance, the resident of each dwelling unit Based on this indication, the growth environment of the plant cultivation site can be adjusted.

  Embodiments of the present invention will be described below with reference to the drawings.

(Embodiment 1)
Embodiment 1 of the present invention will be described with reference to FIGS. FIG. 1 is a schematic configuration diagram showing the overall configuration of the wide area monitoring system A of the present embodiment. The wide area monitoring system A includes a plurality of data collection devices (so-called field servers) 1 installed in a plurality of dwelling units, a data totaling server 2 (so-called local server) operated by a service provider of the wide area monitoring service, User terminals 3 and 4 used by residents of each dwelling unit are provided as main components. In the system A, the data collection device 1, the data totaling server 2, and the user terminal 3 can perform data communication with each other via a communication network NT such as the Internet.

  The user terminals 3 and 4 used by the resident are constituted by, for example, a personal computer on which a web browser is installed. The user terminal 4 includes a wireless LAN module compliant with the IEEE802.11b standard so that data can be exchanged with the data collection device 1 by performing direct wireless communication with the data collection device 1. It has become. Note that the user terminal 3 is not limited to a personal computer in which a Web browser is installed. If data communication is possible via the communication network NT, a mobile phone, a PDA (Personal Digital Assistant), a television device, etc. A user terminal may be configured. Further, the user terminal 4 is not limited to a personal computer in which a Web browser is installed, and may be a terminal such as a mobile phone or a PDA as long as the terminal includes a wireless LAN module.

  A plurality of data collection devices 1 are installed in the corresponding dwelling unit site and detect monitoring data related to a predetermined monitoring target. Each of the plurality of data collection devices 1 is assigned unique address information (IP address), and each data collection device 1 includes a wireless LAN module that performs wireless communication with the wireless LAN access point 5. It is connected to the communication network NT via the wireless LAN access point 5, and data communication can be performed between the data totaling server 2 and the user terminal 3 via the communication network NT.

  FIG. 3 is an external perspective view of the data collection device 1. The data collection device 1 houses the circuit block shown in FIG. 2 inside a device main body 35 that is formed in a vertically long rectangular parallelepiped shape. A pole 36 is connected to the bottom of the apparatus body 35 and is used with the pole 36 placed on the ground. Further, as will be described later, a temperature / humidity sensor 26 and a camera block 27 can be connected to the data collection device 1 as external sensors, and these external sensors are installed at a location different from the data collection device 1. It is attached to the support 37 and is electrically connected to the data collection device 1 via an electric wire 38.

  Next, the configuration of the data collection device 1 will be described based on the block diagram of FIG. The data collection device 1 includes a CPU block 10, a wireless communication unit 11, a data collection unit 12, a sensor I / F unit 13, a data display unit 14, an internal environment measurement unit 15, and an internal environment control unit 16. The CPU 10 includes a built-in temperature / humidity sensor 17 and a power supply unit 18 as main components, and a CPU block 10 includes a wireless communication control unit 10a, a data control unit 10b, a data calculation unit 10c, and a data storage unit 10d. ing. Note that a data collection program is incorporated in the data processing device 1 in advance, and by executing the data collection program, the wireless communication control unit 10a, the data control unit 10b, and the data are processed by the arithmetic function of the CPU block 10. An arithmetic unit 10c and a data storage unit 10d are realized.

  The wireless communication unit 11 has an omnidirectional antenna and is used to perform wireless communication with the user terminal 4 or the wireless LAN access point 5.

  The sensor I / F unit 13 is connected to a built-in temperature / humidity sensor 17 and an interface to which various external sensors 19 to 26 or a camera block 27 are connected as detection means for detecting monitoring data related to a predetermined monitoring target. It is.

  The data collection unit 12 receives detection data from the built-in temperature / humidity sensor 17, image data from the camera block 27, and detection data from various external sensors 19 to 26 via the sensor I / F unit 13. While collecting at a predetermined sampling period, the collected monitoring data is output to the CPU block 10.

  The temperature / humidity sensor 17 is configured by combining, for example, a temperature sensor such as a platinum resistance thermometer and an electric resistance type or capacitance type humidity sensor. The temperature / humidity sensor 17 is used to detect the temperature and humidity of the atmosphere at the installation location of the data collection device 1, and the detected atmospheric temperature and humidity are sent to the data collection unit 12 via the sensor I / F unit 13. Is output.

  The internal environment measurement unit 15 is configured by combining, for example, a temperature sensor such as a platinum resistance thermometer and an electric resistance type or capacitance type humidity sensor, and detects the temperature and humidity inside the apparatus main body 35 described above. Used for. The internal environment control unit 16 controls a fan (not shown), a heater (not shown), a cooling device (not shown), and the like provided in the apparatus main body 35 based on the measurement result of the internal environment measurement unit 15. Thus, the temperature and humidity inside the device main body 35 are controlled within a predetermined range, and the built-in electronic components do not malfunction due to changes in the internal environment due to changes in the outside air temperature, rain ice, or solar radiation. So that the internal environment is controlled.

  The power supply unit 18 receives power supply from a commercial power supply, a battery, or a solar panel (not shown), and supplies operating power to an internal circuit or an external sensor connected to the sensor I / F unit 13.

  The CPU block 10 performs overall control of the data collection device 1, and the data calculation unit 10c allows the user to understand raw data (for example, voltage values) collected from various sensors by the data collection unit 12. The data is converted into data of a predetermined unit (for example, temperature and humidity).

  The data control unit 10b performs internal processing of data input from the data calculation unit 10c, and stores data input from the data calculation unit 10c in the data storage unit 10d for a certain period of time, for example, LED A process of displaying data on the data display unit 14 composed of a 7-segment display monitor using the above and a process of wirelessly transmitting data from the wireless communication unit 11 described later to the outside are performed. In the data storage unit 10d, data input from the data calculation unit 10c is stored in association with the data collection date and time (date and time when the data was collected).

  The wireless communication control unit 10a requests the data control unit 10b to output untransmitted data every time a predetermined transmission time elapses. When the data control unit 10b receives an output request for untransmitted data from the wireless communication control unit 10a, the data control unit 10b extracts untransmitted data from the data of various sensors stored in the data storage unit 34 to the data aggregation server 2. To the wireless communication control unit 10a. When the wireless communication control unit 10a receives the untransmitted data from the data control unit 10b, the wireless communication control unit 10a transmits the received untransmitted data from the wireless communication unit 11 to the wireless LAN access point 5, and the wireless LAN access point 5 and the communication network NT. Is transmitted to the data totaling server 2 via.

  In addition, the data collection device 1 includes a human sensor 19, an RFID block 20, a heat sensor 21, a smoke sensor 22, a rain sensor (rain sensor) 23, a soil temperature sensor 24, and a soil humidity sensor as external detection means. 25, a temperature / humidity sensor 26, a camera block 27, and the like can be connected, and any one of the sensors can be attached and used according to the intended use.

  The human sensor 19 uses the intrusion route to the installed dwelling unit as a detection area to detect heat rays emitted from a person in the detection area, thereby detecting the presence or absence of a person to be monitored in the detection area. It is composed of an electric infrared detector. As a sensor for detecting a person, a thermal image sensor is used instead of a human sensor composed of a pyroelectric infrared detector, and the presence or absence of a person in the detection area is detected based on a thermal image output from the thermal image sensor. You may make it do.

  The RFID block 20 reads personal identification information stored in advance in a storage medium by performing non-contact communication using an electromagnetic field with a storage medium (not shown) possessed by a resident of each dwelling unit. Consists of interrogators.

  The heat detection sensor 21 is composed of, for example, a thermistor, and outputs a fire detection signal for notifying the occurrence of a fire to be monitored when the detected temperature exceeds a predetermined threshold temperature.

  The smoke detection sensor 22 is scattered by a labyrinth (not shown) that blocks outside light and allows the inflow of smoke, a light emitting unit (not shown) that emits light into the labyrinth, and smoke that flows into the labyrinth. A light-receiving unit (not shown) that receives the emitted light, and when smoke flows into the labyrinth and the amount of light received by the light-receiving unit exceeds a predetermined threshold value, a fire that informs the occurrence of a fire to be monitored A sensing signal is output.

  The rain sensor 23 includes a kite (not shown) in which a certain amount of rain water is stored, and a mechanism (not shown) that drains rain water by tilting the kite with the weight of the rain water when the rain water is full in the kite, By counting the number of times of drainage, the monitoring target rainfall condition (ie, rainfall) is measured. If the capacity of the kite is large, it takes a long time for the rainwater to accumulate and drain, so it is preferable to set the kite capacity relatively small in order to measure the rainfall situation in real time. .

  The soil temperature sensor 24 has a sensitive portion such as a platinum resistance thermometer disposed at the tip of a probe inserted into the soil, and detects the temperature of the soil to be monitored.

  The soil humidity sensor 25 incorporates an electrical resistance type or capacitance type humidity sensor at the tip of a probe inserted into the soil, and detects the humidity of the soil to be monitored.

  The temperature / humidity sensor 26 is configured by combining a temperature sensor such as a platinum resistance thermometer and an electric resistance type or capacitance type humidity sensor, and detects the temperature and humidity of the atmosphere to be monitored.

  The camera block 27 includes a CCD image sensor (not shown), for example, and captures an image in a predetermined imaging range, an internal environment measurement unit 29 that measures the internal environment, and a measurement result of the internal environment. An internal environment control unit 30 that controls the internal environment based on the power supply unit 31 is provided. The internal environment measurement unit 29 is configured by combining, for example, a temperature sensor such as a platinum resistance thermometer and an electric resistance type or capacitance type humidity sensor, and detects the temperature and humidity inside the housing 27a of the camera block 27. To do. The internal environment control unit 30 then installs a fan (not shown), a heater (not shown), a cooling device (not shown), etc. provided in the housing 27a based on the measurement result of the internal environment measurement unit 29. By controlling, the temperature and humidity inside the housing 27a are controlled within a predetermined range, and the built-in electronic component malfunctions due to changes in the internal environment due to changes in the outside air temperature, rain ice, and solar radiation. The internal environment is controlled so that it does not occur.

In addition to the above sensors, the external detection means includes a solar radiation amount sensor that detects the amount of solar radiation, a wind direction / anemometer that detects the wind direction and wind speed, a sound sensor that detects sound, a water level sensor that detects water level, air Use sensors such as pollen sensors that measure pollen in the air, CO ₂ sensors that measure CO ₂ concentration in the atmosphere, SOx sensors that measure SOx concentration in the atmosphere, and NOx sensors that measure NOx concentration in the atmosphere Can do. In addition, what is necessary is just to use a conventionally well-known sensor as these sensors, and the structure is not ask | required.

  FIG. 4 is a block diagram showing a schematic configuration of the data totaling server 2. The arithmetic processing unit 40 that performs overall control, the communication unit 41 that performs communication via the communication network NT, and the communication unit 41 include The storage unit 42 stores monitoring data of each dwelling unit 50 received from the data collection device 1 in association with address information. In addition, the arithmetic processing unit 40 monitors the monitoring target in a wide area based on the monitoring data of each dwelling unit read out from the storage unit 42, and transmits the wide area information indicating the monitoring result from the communication unit 41 to each user terminal 3. A wide-area monitoring unit 43 is provided. The data totaling server 2 stores a program for performing wide area monitoring, and the arithmetic processing unit 40 executes the program so that the wide area monitoring unit 43 is realized by the arithmetic function of the arithmetic processing unit 40. .

  The wide area monitoring system A according to the present invention has the above-described configuration, and in the following, using the above system, whether there are suspicious persons in a plurality of neighboring dwelling units (for example, dwelling units in the same town). A service that monitors over a wide area and shares suspicious person information among these plurality of dwelling units will be described with reference to FIGS. 5 and 6. FIG.

  In the application example of FIG. 5, the data collection devices 1a to 1f are installed on the premises of the six adjacent dwelling units 50a to 50f, respectively, and wirelessly communicated with the data collection devices 1a to 1f. A LAN access point 5 is installed. In addition, it is assumed that the above-described human sensor 19 and camera block 27 are connected to each of the data collection devices 1a to 1f as detection means. The data collection devices 1a to 1f installed in each of the dwelling units 50a to 50f have the same configuration. When the entire data collection device is described, it is referred to as the data collection device 1, and each data When the collection device is described, it is expressed as data collection devices 1a, 1b,.

  Next, the wide area monitoring operation by this system will be described with reference to the flowchart of FIG. In the data collection device 1, the data collection unit 12 collects detection data from a sensor connected to the sensor I / F unit 13 at a preset sampling cycle (step S1 in FIG. 6), and the data calculation unit 10c. However, the raw data collected by the data collecting unit 12 is converted into data in a predetermined unit that can be understood by the user (step S2). When the data conversion by the data calculation unit 10c is completed, the data control unit 10b stores the data input from the data calculation unit 10c in the data storage unit 10d (step S3), and the converted data is stored in the data display unit 14. It is displayed (step S4). Further, the data control unit 10b determines whether or not a predetermined transmission time has elapsed since the previous transmission (step S5). If the transmission time has not elapsed, after performing the wait processing for the sampling time (step S5). S7) Returning to step S1, the above processing is repeated. On the other hand, if the transmission time has elapsed in the determination of step S5, the data control unit 10b reads out the untransmitted data from the data stored in the data storage unit 10d and sends it to the wireless communication control unit 10a. After the control unit 10a controls the operation of the wireless communication unit 11 to transmit untransmitted data to the data totaling server 2 (step S6), the wait process for the sampling time is performed (step S7), and the process returns to step S1. Repeat the above process.

  The detection data of each sensor transmitted from the data collection device 1 in the process of step S6 is sent to the data totaling server 2 via the wireless LAN access point 5 and the communication network NT. In the data totaling server 2, the communication unit 41 receives the detection data from each data collection device 1 (step S <b> 11) and outputs the received data to the arithmetic processing unit 40. The arithmetic processing unit 40 stores the monitoring data input from the communication unit 41 in the storage unit 42 in association with the address information of the transmission source data collection device (step S12), and the wide area monitoring unit 43 stores the data. The monitoring target is monitored over a wide area based on the detection data of each dwelling unit 50a to 50f read from the unit 42 (step S13), and the wide area information indicating the monitoring result is transmitted from the communication unit 41 to each user terminal 3 (step S13). S14).

  And the wide area information transmitted from the data totalization server 2 in step S14 is sent to the user terminal 3 which the resident of each dwelling unit 50a-50f uses via the communication network NT, and each user terminal 3 uses this wide area information. When received (step S15), the wide area information is displayed on the display unit of each user terminal 3.

  Moreover, when the resident of each dwelling unit accesses the data totaling server 2 or the data collecting apparatus 1 using the user terminal 3 which consists of a personal computer, the data totaling server 2 or the data collecting apparatus 1 will perform data according to access (trigger input). Since various detection data stored in the storage unit 42 of the aggregation server 2 and detection data stored in the data storage unit 10d of the data collection device 1 are transmitted to the user terminal 3, these detection data are transmitted to the user terminal. 3 can also be viewed. The data collection device 1 has a Web server function, and the data collection device 1 and the data totaling server 2 have a dedicated GUI screen for data browsing, and the resident operates the user terminal 3. Allows browsing of desired detection data such as real-time data and past data (for example, detection data for the past month or detection data for the past year), and download of detection data in CSV format. .

  Here, suspicious person monitoring processing by the present system will be described below. For example, when the human sensor 19 of the data collection device 1 d installed in the dwelling unit 50 d detects the presence of a person in the detection area, a human body detection signal from the human sensor 19 is transmitted via the sensor I / F unit 13. Is input. When the human body detection signal is input from the human sensor 19, the data collection unit 12 outputs the human body detection signal to the data calculation unit 10 c regardless of the sampling period. The data calculation unit 10c outputs the human body detection signal as it is to the data control unit 10b, and the data control unit 10b stores the human body detection signal in the data storage unit 10d and displays it on the data display unit 14, and then the wireless communication control unit 10 a is controlled to be transmitted from the wireless communication unit 11 to the data totaling server 2.

  At this time, in the data totaling server 2, the communication unit 41 receives the human body detection signal transmitted from the data collection device 1d, the arithmetic processing unit 40 stores the human body detection signal in the storage unit 42, and the wide area monitoring unit 43. Determines whether there is an intruder in each of the dwelling units 50a to 50f based on the monitoring data read from the storage unit 42. For example, in the dwelling unit 50d set in the alert state by the resident using the user terminal 3, when the data collection device 1d installed in the dwelling unit 50d detects a suspicious person, the human body detection signal is sent from the data collection device 1d to the data totaling server 2. And an image photographed by the camera block 27 are input. The wide area monitoring unit 43 determines that a suspicious person has entered the dwelling unit 50d based on the human body detection signal (trigger input) input from the data collection device 1d. Here, in the data totaling server 2, information on the installation location of each data collection device 1, that is, position information of each dwelling unit 50 is registered, and when a suspicious person enters the dwelling unit 50d, the dwelling unit 50d and its dwelling unit 50d The communication unit uses the information that informs the intruder into the dwelling unit 50d to the user terminal 3 used by the residents of the neighboring dwelling units 50a to 50c, 50e, and 50f, and the image data captured by the camera block 27 as wide area information. 41, the resident of each of the dwelling units 50a to 50f is notified of the intruder information displayed on the user terminal 3 (for example, the home display monitor 3a, the television 3c, or the mobile phone 3b) or the camera block 27. From the image, it is easy to confirm that a suspicious person has entered the dwelling unit 50d, and take measures such as alerting or reporting the intrusion by tightening the door tightness. Possible to become.

  As described above, in the present embodiment, the data collection device 1 installed in each of the dwelling units 50a to 50f uses the intrusion route to the corresponding dwelling unit 50a to 50f as a detection area to detect a human sensor in the detection area. 19, the wide area monitoring unit 43 of the data totaling server 2 detects a person when the person sensor 19 of any of the data collection devices 1 detects a person. Since the wide area information which shows this is output and this wide area information is transmitted from the communication part 41 to the user terminal 4 of the resident who lives in the dwelling unit 50 in the same area (the same town or the same residents' association) The data totaling server 2 can monitor the presence or absence of an intruder into the home or a nearby dwelling unit 50 over a wide area. In addition, by transmitting wide-area information indicating the monitoring result to each user terminal 3, when a suspicious person enters the home or a neighboring dwelling unit 50, the door lock is tightened and the intrusion is warned or reported. It becomes possible to take.

(Embodiment 2)
Embodiment 2 of the present invention will be described below. Since the system configuration and operation of the wide area monitoring system A are the same as those described in the first embodiment, common components are denoted by the same reference numerals and description thereof is omitted.

  In the wide area monitoring system A of the present embodiment, the occurrence of a fire to be monitored in a plurality of neighboring dwelling units (for example, dwelling units in the same town or residents' association) is monitored over a wide area, and the residents of the plurality of dwelling units It is assumed that at least a thermal sensor 21 and a smoke sensor 22 are connected to each data collection device 1 as detection means.

  Here, the fire monitoring process by this system will be described below. When the heat detection sensor 21 or the smoke detection sensor 22 of the data collection device 1 installed in any of the dwelling units 50 (50a to 50f) detects a fire, the fire detection is detected from the heat detection sensor 21 or the smoke detection sensor 22 that detects the fire. A signal is input to the data collection unit 12 via the sensor I / F unit 13. When a fire detection signal is input from the heat detection sensor 21 or the smoke detection sensor 22, the data collection unit 12 outputs the fire detection signal to the data calculation unit 10c regardless of the sampling period. The data calculation unit 10c outputs the fire detection signal to the data control unit 10b as it is, and the data control unit 10b stores the fire detection signal in the data storage unit 10d and displays it on the data display unit 14, and then the wireless communication control unit 10 a is controlled to be transmitted from the wireless communication unit 11 to the data totaling server 2.

  At this time, in the data totaling server 2, the communication unit 41 receives the fire detection signal transmitted from the data collection device 1d, the arithmetic processing unit 40 stores the fire detection signal in the storage unit 42, and the wide area monitoring unit 43. Determines whether or not there is a fire in each of the dwelling units 50a to 50f based on the monitoring data read from the storage unit 42. That is, when the wide area monitoring unit 43 determines that a fire has occurred in any of the dwelling units 50 based on the fire detection signal (trigger input) input from any of the data collection devices 1, it is within the same area (in the same town, Alternatively, the communication unit 41 sends wide area information (information including the place where the fire occurred) to the user terminal 4 of the resident who lives in the dwelling unit 50 of the same residents' association) that a fire has occurred in any dwelling unit 50. Therefore, the residents of each of the dwelling units 50a to 50f can use the fire alarm information displayed on the user terminal 3 (for example, the home display monitor 3a, the television 3c, or the mobile phone 3b) at home or in neighboring dwellings. It is easy to confirm that a fire has occurred, and it becomes possible to take measures against fires such as evacuation and fire fighting cooperation.

  As described above, in this embodiment, the data collection device 1 installed in each of the dwelling units 50a to 50f includes the heat detection sensor 21 and the smoke detection sensor 22 that detect a fire in the dwelling unit as detection means, and the data totaling server 2 When a fire is detected by the heat detection sensor 21 or the smoke detection sensor 22 of any of the data collection devices 1, the wide area monitoring unit 43 outputs wide area information indicating that a fire has occurred in the dwelling unit. Since the communication part 41 is transmitting the information to each user terminal 3, the data totaling server 2 can monitor the presence or absence of the fire in several dwelling units 50a-50f in a wide area. Moreover, the data totaling server 2 can transmit the wide area information which shows a monitoring result to each user terminal 3, and the resident of each dwelling unit 50a-50f can confirm easily that the fire broke out in the home or the neighboring dwelling unit, It becomes possible to respond to fires such as evacuation and fire fighting cooperation.

(Embodiment 3)
Embodiment 3 of the present invention will be described below. Since the system configuration and operation of the wide area monitoring system A are the same as those described in the first embodiment, common components are denoted by the same reference numerals and description thereof is omitted.

  In the wide area monitoring system A of the present embodiment, a rainfall situation that is monitored in a plurality of neighboring units is monitored over a wide area, and a service is provided for sharing the rainfall information among the residents of these plural units. In addition, it is assumed that at least a rainfall sensor 23 is connected to each data collection device 1 as detection means.

  Here, the monitoring process of the rainfall situation by this system is demonstrated below. The data collection unit 12 of the data collection device 1 installed in each dwelling unit collects detection data from each sensor connected to the sensor I / F unit 13 every time a predetermined sampling period elapses. Here, when rainfall is detected by the rainfall sensor 23 of the data collection device 1 installed in any of the dwelling units 50, the rainfall is output as detection data from the rainfall sensor 23 to the data collection unit 12.

  In the data collection unit 12, when rainfall data is input as detection data from the rainfall sensor 23, the rainfall data is output to the data calculation unit 10c, and the data calculation unit 10c outputs the rainfall data (for example, the number of drains). The data is converted into data in a predetermined unit that can be understood by the user (for example, rainfall (ml), etc.), and the converted data is output to the data control unit 10b. When the converted rain data is input from the data operation unit 10c, the data control unit 10b stores the rain data in the data storage unit 10d and displays it on the data display unit 14, and then the wireless communication control unit 10a. And the data is transmitted from the wireless communication unit 11 to the data totaling server 2.

  At this time, in the data totaling server 2, the communication unit 41 receives the rain data transmitted from the data collection device 1, the arithmetic processing unit 40 stores the rain data in the storage unit 42, and the wide area monitoring unit 43 includes the storage unit. Based on the rainfall data (monitoring data) read out from 42, the rainfall situation in the dwelling units 50a to 50f in the same area (for example, in the same town and the same residents' association) is determined. That is, the wide area monitoring unit 43 determines that rain has been observed in any of the dwelling units 50 based on the rainfall data (trigger input) input from the data collection device 1 and is used by the residents of the dwelling units 50a to 50f. Since the communication unit 41 transmits to the user terminal 3 the dwelling unit where the rain has been observed and the amount of rainfall from the communication unit 41, the resident of each dwelling unit 50a to 50f can receive the user terminal 3 (for example, the display monitor 3a in the house or From the rain information (rainfall location, amount of rainfall, etc.) displayed on the TV 3c or mobile phone 3b), it can be easily confirmed that rain has been observed at home or in nearby dwelling units. It becomes possible to take measures such as rain countermeasures.

  As described above, in the present embodiment, the data collection device 1 installed in each of the dwelling units 50a to 50f includes the rain sensor 23 that measures a rainfall situation (for example, rainfall) as a monitoring target as a detection unit, and When rainfall is detected by the rainfall sensor 23 of the data collection device 1, the wide area monitoring unit 43 outputs the wide area information on the measurement data of the rainfall at the dwelling unit, and the communication unit 41 outputs the wide area information to each user terminal 3. Therefore, the data aggregation server 2 can monitor the rainfall situation in the plurality of dwelling units 50a to 50f over a wide area. Moreover, the data totaling server 2 can transmit the wide area information which shows a monitoring result to each user terminal 3, and the resident of each dwelling unit 50a-50f can confirm the rain condition in a home or a neighboring dwelling unit easily, and laundry It becomes possible to take measures such as taking in rain and taking measures against rain when going out.

(Embodiment 4)
Embodiment 4 of the present invention will be described below. Since the system configuration and operation of the wide area monitoring system A are the same as those described in the first embodiment, common components are denoted by the same reference numerals and description thereof is omitted.

  The wide area monitoring system A of the present embodiment provides a service for monitoring a resident's return home in a plurality of units in a wide area, and notifying the returnee of the return home information. A resident of each dwelling unit possesses a medium (not shown), and information including at least personal identification information is stored in advance in a storage medium possessed by each resident. Each data collection device 1 includes an RFID block (wireless communication means) 20 that reads personal identification information from the storage medium by performing wireless communication with the storage medium to be monitored as detection means. To do. Moreover, the data collection device 1 shall be provided with the memory | storage means (not shown) by which the personal identification information allocated to the resident of the said dwelling unit was registered previously.

  Here, the monitoring process of the resident return home status by this system will be described below. The RFID block 20 of the data collection device 1 installed in any one of the dwelling units 50 (50a to 50f) is not connected to a storage medium (not shown) owned by a resident who has returned home using an electromagnetic field. When the personal identification information stored in advance in the storage medium is read by performing contact communication, the personal identification information is input to the data collection unit 12 via the sensor I / F unit 13. The data collection unit 12 outputs this personal identification information to the data calculation unit 10c when a personal identification signal is input from the RFID block 20, regardless of the sampling period. The data calculation unit 10c serving as the collating unit compares the personal identification information input from the data collecting unit 12 with the personal identification information registered in advance in the storage unit. Is output to the data control unit 10b. In the data control unit 10b, the personal identification information and the personal name input from the data calculation unit 10c are stored in the data storage unit 10d as monitoring data and displayed on the data display unit 14, and then the wireless communication control unit 10 a is controlled to be transmitted from the wireless communication unit 11 to the data totaling server 2.

  At this time, in the data totaling server 2, the communication unit 41 receives the personal identification information and the personal name transmitted from the data collection device 1, and the arithmetic processing unit 40 stores the personal identification information and the personal name in the storage unit 42. When the monitoring data (trigger input) for notifying the personal identification information and the personal name is input from any of the data collection devices 1, the wide area monitoring unit 43 of the arithmetic processing unit 40 receives the input personal identification information and A notification signal (for example, the name of the resident who has returned home) for notifying the return of the resident corresponding to the personal name is transmitted to the user terminal 3 registered in advance. For example, when the return of a child who is a resident is detected in a certain unit, an e-mail or the like notifying the child's return is delivered from the data totaling server 2 to the parent mobile phone 3b who is the resident. If you can confirm the child's return from home, and if the e-mail notifying the child's return is not delivered even after the scheduled return time, confirm the location by calling the mobile phone that the child has You can take action.

  As described above, in this system, in any one of the data collection devices 1, the personal identification information read from the storage medium possessed by the RFID block 20 and the personal identification information registered in the storage means (not shown). As a result of the comparison of the data calculation unit 10c, the monitoring data for notifying the matched personal identification information is transmitted from the transmission means of the data collection device 1 to the data totaling server 2, so that the data totaling server 2 The wide area monitoring unit 43 can monitor the return status of the resident of each dwelling unit over a wide area. In addition, the wide area monitoring unit 43 transmits a notification signal for notifying the return of the resident corresponding to the input personal identification information from the communication unit 41 to the user terminal 3 registered in advance, so that the display of the user terminal 3 is displayed. Based on this, it is possible to confirm the return status of other residents from the remote location and take actions such as location confirmation.

(Embodiment 5)
Embodiment 5 of the present invention will be described below. Since the system configuration and operation of the wide area monitoring system A are the same as those described in the first embodiment, common components are denoted by the same reference numerals and description thereof is omitted.

  In the wide area monitoring system A of the present embodiment, a plurality of dwelling units provide a service for monitoring the environmental information of the plant cultivation land provided in each dwelling area over a wide area and informing the residents of each dwelling unit of the environmental information. It is assumed that a soil temperature sensor 24, a soil humidity sensor 25, and a temperature / humidity sensor 26 that detect environmental information of a plant cultivation site that is a monitoring target are connected to each data collection device 1.

  Here, the process which monitors the environmental information of the plant cultivation site by this system is demonstrated below. The data collection unit 12 of the data collection device 1 installed in each dwelling unit collects detection data from each sensor connected to the sensor I / F unit 13 every time a predetermined sampling period elapses. The sensor I / F unit 13 of the data collection device 1 includes a soil temperature sensor 24 for detecting a soil temperature of a plant cultivation site (for example, a garden) provided in each dwelling unit, and a soil humidity (in the soil) of the plant cultivation site. The soil humidity sensor 25 for detecting the moisture content) and the temperature / humidity sensor 26 for detecting the atmospheric temperature and atmospheric humidity of the plant cultivation site are connected at least, and the detection data (soil temperature, Soil humidity, atmospheric temperature, and atmospheric humidity) are input to the data collection unit 12 as environmental information of the plant cultivation site.

  In the data collection unit 12, when the detection data of the soil temperature sensor 24, the soil humidity sensor 25, and the temperature / humidity sensor 26 are input together with the detection data of other sensors, the soil temperature sensor 24, the soil humidity sensor 25, and the temperature / humidity sensor 26 are input. The data calculation unit 10c outputs the detection data (for example, voltage values) of the soil temperature sensor 24, the soil humidity sensor 25, and the temperature / humidity sensor 26 in a predetermined unit that the user can understand. The data is converted into data (eg, temperature (° C.), humidity (%), etc.), and the converted data is output to the data control unit 10b. When the converted soil temperature, soil humidity, atmospheric temperature, and atmospheric humidity are input from the data calculation unit 10c, the data control unit 10b stores the data in the data storage unit 10d and displays the data on the data display unit 14. Then, the wireless communication control unit 10a is controlled to transmit from the wireless communication unit 11 to the data totaling server 2.

  At this time, in the data totaling server 2, the communication unit 41 receives the environment information (soil temperature, soil humidity, ambient temperature and ambient humidity) of the plant cultivation site transmitted from the data collection device 1 of each dwelling unit, and these environments. Information is stored in the storage unit 42 by the arithmetic processing unit 40, and when the environmental information (trigger input) is input from each data collection device 1, the wide area monitoring unit 43 of the arithmetic processing unit 40 stores the environmental information. Compared with the reference data read from the unit 42, the comparison result is transmitted from the communication unit 41 to the user terminal 3 used by the resident of the corresponding dwelling unit. Here, according to the temperature in the soil and the temperature and humidity of the atmosphere, the recommended range of soil humidity suitable for plant growth is registered in advance as reference data in the storage unit 42 of the data tabulation server 2. The result of comparing the reference data and the detection result of soil humidity is transmitted to the user terminal 3 as wide area information.

  As described above, in the present embodiment, the data collection device 1 installed in each of the dwelling units 50a to 50f detects the soil temperature, the soil humidity, the atmospheric temperature, and the atmospheric humidity of the plant cultivation land, respectively, and the soil temperature sensor 24 and the soil humidity sensor. 25 and the temperature / humidity sensor 26 as environment detection sensors, and the wide area monitoring unit 43 of the data totaling server 2 includes environmental information (soil temperature, soil humidity, atmosphere) of the plant cultivation site detected by the environment detection sensor of the data collection device 1. When the temperature and atmospheric humidity are input, the result of comparing these environmental information with the reference data is transmitted to the user terminal 3 used by the resident of the corresponding dwelling unit. Environmental information can be monitored over a wide area, and the growth environment of the plant cultivation site is adjusted based on the comparison result displayed on the user terminal 3 It is possible. Here, when the comparison result is transmitted from the data totaling server 2 to the user terminal 3, the wide area monitoring unit 43 of the data totaling server 2 instructs the corresponding contents according to the comparison result, for example, a message for instructing watering or fertilization The message may be generated and transmitted from the communication unit 41 to the user terminal 3, and the resident of each dwelling unit takes some action according to the content of the comparison result displayed on the user terminal 3. Can do.

It is a schematic block diagram of the wide area monitoring system of this embodiment. It is a block diagram of the data collection device used for the same as the above. It is an external view of the data collection device used for the same as the above. It is a block diagram of the data totalization server used for the same as the above. It is explanatory drawing explaining the wide area monitoring process same as the above. It is a flowchart explaining operation | movement same as the above.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Data collection device 2 Data totaling server 3 User terminal 11 Wireless communication part (transmission means)
17, 26 Temperature / humidity sensor (detection means)
19 Human sensor (detection means)
20 RFID block (detection means)
21 Thermal sensor (detection means)
22 Smoke detection sensor (detection means)
23 Rain sensor (detection means)
24 Soil temperature sensor (detection means)
25 Soil humidity sensor (detection means)
27 Camera block (detection means)
41 Communication unit (communication means)
42 storage unit (storage means)
43 Wide area monitoring unit (wide area monitoring means)
NT communication network

Claims (6)

A plurality of data collection devices each having a web server function and installed in a plurality of dwelling units, a data totaling server for totaling data collected by the plurality of data collection devices, and users used by residents of each dwelling unit Connected to the terminal via a communication network,
Each data collection device detects detection data relating to a predetermined monitoring target, and transmission means for transmitting the monitoring data detected by the detection means to the data totaling server together with address information assigned to the data collection device With
A data aggregation server includes a communication unit that performs communication via a network, a storage unit that stores the monitoring data of each dwelling unit received by the communication unit from each data collection device in association with address information, and each read from the storage unit Wide area monitoring means for monitoring the monitoring target in a wide area based on monitoring data of dwelling units and transmitting wide area information indicating a monitoring result from the communication means to each user terminal according to a predetermined trigger input. Wide area monitoring system characterized by that. The detection means includes an intrusion route to a corresponding dwelling unit as a detection area, and includes a human sensor that detects the presence or absence of a person to be monitored in the detection area,
The wide area monitoring unit of the data totaling server outputs wide area information indicating that the human sensor of the dwelling unit has detected a person when a person is detected by the human movement sensor of any dwelling unit, and the wide area information The wide area monitoring system according to claim 1, wherein the communication unit transmits the information to each user terminal. The detection means comprises a fire detection sensor for detecting a fire to be monitored in a corresponding dwelling unit,
When the fire detection sensor of any dwelling unit detects a fire, the wide area monitoring unit of the data totaling server outputs wide area information indicating that the fire detection sensor of the dwelling unit has detected a fire, and the wide area information The wide area monitoring system according to claim 1, wherein the communication unit transmits the information to each user terminal. The detection means comprises a rainfall sensor that is installed in the site of the corresponding dwelling unit and detects a rainfall situation to be monitored,
The wide area monitoring means of the data totaling server outputs wide area information indicating that the rain sensor of the dwelling unit has detected a rain state when the rain state is detected by a rain sensor of any dwelling unit, and the wide area information The wide area monitoring system according to claim 1, wherein the communication unit transmits the information to each user terminal. A storage medium possessed by a resident of each dwelling unit stores information including at least personal identification information in advance, and the information can be read from outside by wireless communication,
Each of the detection means includes wireless communication means for reading personal identification information from the storage medium by performing wireless communication with a storage medium that is disposed outside the house and is a monitoring target.
The data collection device includes a storage unit that stores personal identification information assigned to a resident of a corresponding dwelling unit, and a verification unit that collates the personal identification information read by the wireless communication unit with the personal identification information registered in the storage unit If the personal identification information read by the wireless communication unit matches the personal identification information registered in the storage unit as a result of the verification by the verification unit, monitoring data for informing the matched personal identification information is transmitted from the transmission unit. Sent to the summary server,
When the monitoring data for notifying the personal identification information is input from any of the data collection devices, the wide area monitoring means of the data totaling server notifies the resident of the home corresponding to the input personal identification information. The wide area monitoring system according to claim 1, wherein the communication means transmits the information to a user terminal registered in advance. Each detection means comprises an environment detection sensor that detects environmental information of a plant cultivation site to be monitored provided in the corresponding dwelling unit, and the environment information detected by the environment detection sensor is transmitted from the transmission means to the data aggregation server. And
The storage unit of the data totaling server stores the environment information received from the environment detection sensor of each dwelling unit, and the wide area monitoring unit uses the environment information of the plant cultivation site of each dwelling unit read from the storage unit as predetermined reference data The wide-area monitoring system according to claim 1, wherein a result of comparison with the communication means is transmitted from the communication means to a corresponding user terminal.

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